Impact of Drivetrain on Wind Farm VAR Control - Upwind
Impact of Drivetrain on Wind Farm VAR Control - Upwind
Impact of Drivetrain on Wind Farm VAR Control - Upwind
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UPWIND<br />
6. Acknowledgements<br />
We gratefully acknowledge funding from the European Community with financial participati<strong>on</strong><br />
under the Sixth Framework Programme for the Integrated <strong>Wind</strong> Turbine Design project<br />
(UPWIND), c<strong>on</strong>tract number 019945.<br />
7. References<br />
[1] <strong>Upwind</strong> Project WP9.4.2 – Electrical Grid, “Design <str<strong>on</strong>g>of</str<strong>on</strong>g> Large Scale Offshore <strong>Wind</strong> <strong>Farm</strong>s”,<br />
GE-GRC Munich.<br />
[2] Miller, N.W. Sanchez-Gasca, J.J. Price, W.W. Delmerico, R.W., “Dynamic modelling <str<strong>on</strong>g>of</str<strong>on</strong>g> GE<br />
1.5 and 3.6 MW wind turbine-generators for stability simulati<strong>on</strong>s”, IEEE Power Engineering<br />
Society General Meeting, 2003, Vol. 3, pp. 1977- 1983.<br />
[3] ABB, XLPE Cable Systems, User’s Guide.<br />
[4] <strong>Wind</strong> Park Management System (WPMS) Reactive Power C<strong>on</strong>trol (<strong>Wind</strong><strong>VAR</strong>) Design<br />
Guideline, GE Internal Report, September 2004.<br />
[5] Koessler, R.J., “Techniques for Tuning Excitati<strong>on</strong> System Parameters”, IEEE Trans. Energy<br />
C<strong>on</strong>versi<strong>on</strong>, Vol, 3, No. 4, Dec. 1988, pp. 785-791<br />
[6] General Electric, Positive Sequence Load Flow (PSLF) Manual.<br />
[7] IEEE Std. 421.2-1990, “IEEE Guide for Identificati<strong>on</strong>, Testing, and Evaluati<strong>on</strong> <str<strong>on</strong>g>of</str<strong>on</strong>g> the<br />
Dynamic Performance <str<strong>on</strong>g>of</str<strong>on</strong>g> Excitati<strong>on</strong> C<strong>on</strong>trol System”.<br />
Deliverable D5.9.1 66